/* * Copyright 2012 Hans Leidekker for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define COBJMACROS #include "config.h" #include #include "windef.h" #include "winbase.h" #include "wbemcli.h" #include "wine/debug.h" #include "wbemprox_private.h" WINE_DEFAULT_DEBUG_CHANNEL(wbemprox); HRESULT create_view( const struct property *proplist, const WCHAR *class, const struct expr *cond, struct view **ret ) { struct view *view = heap_alloc( sizeof(struct view) ); if (!view) return E_OUTOFMEMORY; view->proplist = proplist; view->table = grab_table( class ); view->cond = cond; view->result = NULL; view->count = 0; *ret = view; return S_OK; } void destroy_view( struct view *view ) { if (!view) return; if (view->table) release_table( view->table ); heap_free( view->result ); heap_free( view ); } static BOOL eval_like( const WCHAR *lstr, const WCHAR *rstr ) { const WCHAR *p = lstr, *q = rstr; while (*p && *q) { if (*q == '%') { while (*q == '%') q++; if (!*q) return TRUE; while (*p && toupperW( p[1] ) != toupperW( q[1] )) p++; if (!*p) return TRUE; } if (toupperW( *p++ ) != toupperW( *q++ )) return FALSE; } return TRUE; } static HRESULT eval_strcmp( UINT op, const WCHAR *lstr, const WCHAR *rstr, LONGLONG *val ) { if (!lstr || !rstr) { *val = 0; return S_OK; } switch (op) { case OP_EQ: *val = !strcmpW( lstr, rstr ); break; case OP_GT: *val = strcmpW( lstr, rstr ) > 0; break; case OP_LT: *val = strcmpW( lstr, rstr ) < 0; break; case OP_LE: *val = strcmpW( lstr, rstr ) <= 0; break; case OP_GE: *val = strcmpW( lstr, rstr ) >= 0; break; case OP_NE: *val = strcmpW( lstr, rstr ); break; case OP_LIKE: *val = eval_like( lstr, rstr ); break; default: ERR("unhandled operator %u\n", op); return WBEM_E_INVALID_QUERY; } return S_OK; } static inline BOOL is_strcmp( const struct complex_expr *expr ) { return ((expr->left->type == EXPR_PROPVAL && expr->right->type == EXPR_SVAL) || (expr->left->type == EXPR_SVAL && expr->right->type == EXPR_PROPVAL)); } static inline BOOL is_boolcmp( const struct complex_expr *expr, UINT ltype, UINT rtype ) { if (ltype == CIM_BOOLEAN && expr->left->type == EXPR_PROPVAL && (expr->right->type == EXPR_SVAL || expr->right->type == EXPR_BVAL)) return TRUE; else if (rtype == CIM_BOOLEAN && expr->right->type == EXPR_PROPVAL && (expr->left->type == EXPR_SVAL || expr->left->type == EXPR_BVAL)) return TRUE; return FALSE; } static HRESULT eval_boolcmp( UINT op, LONGLONG lval, LONGLONG rval, UINT ltype, UINT rtype, LONGLONG *val ) { static const WCHAR trueW[] = {'T','r','u','e',0}; if (ltype == CIM_STRING) lval = !strcmpiW( (const WCHAR *)(INT_PTR)lval, trueW ) ? -1 : 0; else if (rtype == CIM_STRING) rval = !strcmpiW( (const WCHAR *)(INT_PTR)rval, trueW ) ? -1 : 0; switch (op) { case OP_EQ: *val = (lval == rval); break; case OP_NE: *val = (lval != rval); break; default: ERR("unhandled operator %u\n", op); return WBEM_E_INVALID_QUERY; } return S_OK; } static UINT resolve_type( UINT left, UINT right ) { switch (left) { case CIM_SINT8: case CIM_SINT16: case CIM_SINT32: case CIM_SINT64: case CIM_UINT8: case CIM_UINT16: case CIM_UINT32: case CIM_UINT64: switch (right) { case CIM_SINT8: case CIM_SINT16: case CIM_SINT32: case CIM_SINT64: case CIM_UINT8: case CIM_UINT16: case CIM_UINT32: case CIM_UINT64: return CIM_UINT64; default: break; } break; case CIM_STRING: if (right == CIM_STRING) return CIM_STRING; break; case CIM_BOOLEAN: if (right == CIM_BOOLEAN) return CIM_BOOLEAN; break; default: break; } return CIM_ILLEGAL; } static HRESULT eval_binary( const struct table *table, UINT row, const struct complex_expr *expr, LONGLONG *val, UINT *type ) { HRESULT lret, rret; LONGLONG lval, rval; UINT ltype, rtype; lret = eval_cond( table, row, expr->left, &lval, <ype ); rret = eval_cond( table, row, expr->right, &rval, &rtype ); if (lret != S_OK || rret != S_OK) return WBEM_E_INVALID_QUERY; *type = resolve_type( ltype, rtype ); if (is_boolcmp( expr, ltype, rtype )) return eval_boolcmp( expr->op, lval, rval, ltype, rtype, val ); if (is_strcmp( expr )) { const WCHAR *lstr = (const WCHAR *)(INT_PTR)lval; const WCHAR *rstr = (const WCHAR *)(INT_PTR)rval; return eval_strcmp( expr->op, lstr, rstr, val ); } switch (expr->op) { case OP_EQ: *val = (lval == rval); break; case OP_AND: *val = (lval && rval); break; case OP_OR: *val = (lval || rval); break; case OP_GT: *val = (lval > rval); break; case OP_LT: *val = (lval < rval); break; case OP_LE: *val = (lval <= rval); break; case OP_GE: *val = (lval >= rval); break; case OP_NE: *val = (lval != rval); break; default: ERR("unhandled operator %u\n", expr->op); return WBEM_E_INVALID_QUERY; } return S_OK; } static HRESULT eval_unary( const struct table *table, UINT row, const struct complex_expr *expr, LONGLONG *val, UINT *type ) { HRESULT hr; UINT column; LONGLONG lval; if (expr->op == OP_NOT) { hr = eval_cond( table, row, expr->left, &lval, type ); if (hr != S_OK) return hr; *val = !lval; return S_OK; } hr = get_column_index( table, expr->left->u.propval->name, &column ); if (hr != S_OK) return hr; hr = get_value( table, row, column, &lval ); if (hr != S_OK) return hr; switch (expr->op) { case OP_ISNULL: *val = !lval; break; case OP_NOTNULL: *val = lval; break; default: ERR("unknown operator %u\n", expr->op); return WBEM_E_INVALID_QUERY; } *type = table->columns[column].type & CIM_TYPE_MASK; return S_OK; } static HRESULT eval_propval( const struct table *table, UINT row, const struct property *propval, LONGLONG *val, UINT *type ) { HRESULT hr; UINT column; hr = get_column_index( table, propval->name, &column ); if (hr != S_OK) return hr; *type = table->columns[column].type & CIM_TYPE_MASK; return get_value( table, row, column, val ); } HRESULT eval_cond( const struct table *table, UINT row, const struct expr *cond, LONGLONG *val, UINT *type ) { if (!cond) { *val = 1; *type = CIM_UINT64; return S_OK; } switch (cond->type) { case EXPR_COMPLEX: return eval_binary( table, row, &cond->u.expr, val, type ); case EXPR_UNARY: return eval_unary( table, row, &cond->u.expr, val, type ); case EXPR_PROPVAL: return eval_propval( table, row, cond->u.propval, val, type ); case EXPR_SVAL: *val = (INT_PTR)cond->u.sval; *type = CIM_STRING; return S_OK; case EXPR_IVAL: *val = cond->u.ival; *type = CIM_UINT64; return S_OK; case EXPR_BVAL: *val = cond->u.ival; *type = CIM_BOOLEAN; return S_OK; default: ERR("invalid expression type\n"); break; } return WBEM_E_INVALID_QUERY; } HRESULT execute_view( struct view *view ) { UINT i, j = 0, len; if (!view->table) return S_OK; if (view->table->fill) { clear_table( view->table ); view->table->fill( view->table, view->cond ); } if (!view->table->num_rows) return S_OK; len = min( view->table->num_rows, 16 ); if (!(view->result = heap_alloc( len * sizeof(UINT) ))) return E_OUTOFMEMORY; for (i = 0; i < view->table->num_rows; i++) { HRESULT hr; LONGLONG val = 0; UINT type; if (j >= len) { UINT *tmp; len *= 2; if (!(tmp = heap_realloc( view->result, len * sizeof(UINT) ))) return E_OUTOFMEMORY; view->result = tmp; } if ((hr = eval_cond( view->table, i, view->cond, &val, &type )) != S_OK) return hr; if (val) view->result[j++] = i; } view->count = j; return S_OK; } struct query *create_query(void) { struct query *query; if (!(query = heap_alloc( sizeof(*query) ))) return NULL; list_init( &query->mem ); query->refs = 1; return query; } void free_query( struct query *query ) { struct list *mem, *next; if (!query) return; destroy_view( query->view ); LIST_FOR_EACH_SAFE( mem, next, &query->mem ) { heap_free( mem ); } heap_free( query ); } struct query *addref_query( struct query *query ) { InterlockedIncrement( &query->refs ); return query; } void release_query( struct query *query ) { if (!InterlockedDecrement( &query->refs )) free_query( query ); } HRESULT exec_query( const WCHAR *str, IEnumWbemClassObject **result ) { HRESULT hr; struct query *query; *result = NULL; if (!(query = create_query())) return E_OUTOFMEMORY; hr = parse_query( str, &query->view, &query->mem ); if (hr != S_OK) goto done; hr = execute_view( query->view ); if (hr != S_OK) goto done; hr = EnumWbemClassObject_create( query, (void **)result ); done: release_query( query ); return hr; } static BOOL is_selected_prop( const struct view *view, const WCHAR *name ) { const struct property *prop = view->proplist; if (!prop) return TRUE; while (prop) { if (!strcmpiW( prop->name, name )) return TRUE; prop = prop->next; } return FALSE; } static BOOL is_system_prop( const WCHAR *name ) { return (name[0] == '_' && name[1] == '_'); } static BSTR build_servername( const struct view *view ) { WCHAR server[MAX_COMPUTERNAME_LENGTH + 1], *p; DWORD len = sizeof(server)/sizeof(server[0]); if (view->proplist) return NULL; if (!(GetComputerNameW( server, &len ))) return NULL; for (p = server; *p; p++) *p = toupperW( *p ); return SysAllocString( server ); } static BSTR build_classname( const struct view *view ) { return SysAllocString( view->table->name ); } static BSTR build_namespace( const struct view *view ) { static const WCHAR cimv2W[] = {'R','O','O','T','\\','C','I','M','V','2',0}; if (view->proplist) return NULL; return SysAllocString( cimv2W ); } static BSTR build_proplist( const struct view *view, UINT index, UINT count, UINT *len ) { static const WCHAR fmtW[] = {'%','s','=','%','s',0}; UINT i, j, offset, row = view->result[index]; BSTR *values, ret = NULL; if (!(values = heap_alloc( count * sizeof(BSTR) ))) return NULL; *len = j = 0; for (i = 0; i < view->table->num_cols; i++) { if (view->table->columns[i].type & COL_FLAG_KEY) { const WCHAR *name = view->table->columns[i].name; values[j] = get_value_bstr( view->table, row, i ); *len += strlenW( fmtW ) + strlenW( name ) + strlenW( values[j] ); j++; } } if ((ret = SysAllocStringLen( NULL, *len ))) { offset = j = 0; for (i = 0; i < view->table->num_cols; i++) { if (view->table->columns[i].type & COL_FLAG_KEY) { const WCHAR *name = view->table->columns[i].name; offset += sprintfW( ret + offset, fmtW, name, values[j] ); if (j < count - 1) ret[offset++] = ','; j++; } } } for (i = 0; i < count; i++) SysFreeString( values[i] ); heap_free( values ); return ret; } static UINT count_key_columns( const struct view *view ) { UINT i, num_keys = 0; for (i = 0; i < view->table->num_cols; i++) { if (view->table->columns[i].type & COL_FLAG_KEY) num_keys++; } return num_keys; } static BSTR build_relpath( const struct view *view, UINT index, const WCHAR *name ) { static const WCHAR fmtW[] = {'%','s','.','%','s',0}; BSTR class, proplist, ret = NULL; UINT num_keys, len; if (view->proplist) return NULL; if (!(class = build_classname( view ))) return NULL; if (!(num_keys = count_key_columns( view ))) return class; if (!(proplist = build_proplist( view, index, num_keys, &len ))) goto done; len += strlenW( fmtW ) + SysStringLen( class ); if (!(ret = SysAllocStringLen( NULL, len ))) goto done; sprintfW( ret, fmtW, class, proplist ); done: SysFreeString( class ); SysFreeString( proplist ); return ret; } static BSTR build_path( const struct view *view, UINT index, const WCHAR *name ) { static const WCHAR fmtW[] = {'\\','\\','%','s','\\','%','s',':','%','s',0}; BSTR server, namespace = NULL, relpath = NULL, ret = NULL; UINT len; if (view->proplist) return NULL; if (!(server = build_servername( view ))) return NULL; if (!(namespace = build_namespace( view ))) goto done; if (!(relpath = build_relpath( view, index, name ))) goto done; len = strlenW( fmtW ) + SysStringLen( server ) + SysStringLen( namespace ) + SysStringLen( relpath ); if (!(ret = SysAllocStringLen( NULL, len ))) goto done; sprintfW( ret, fmtW, server, namespace, relpath ); done: SysFreeString( server ); SysFreeString( namespace ); SysFreeString( relpath ); return ret; } static inline BOOL is_method( const struct table *table, UINT column ) { return table->columns[column].type & COL_FLAG_METHOD; } static UINT count_properties( const struct view *view ) { UINT i, num_props = 0; for (i = 0; i < view->table->num_cols; i++) { if (!is_method( view->table, i)) num_props++; } return num_props; } static UINT count_selected_properties( const struct view *view ) { const struct property *prop = view->proplist; UINT count; if (!prop) return count_properties( view ); count = 1; while ((prop = prop->next)) count++; return count; } static HRESULT get_system_propval( const struct view *view, UINT index, const WCHAR *name, VARIANT *ret, CIMTYPE *type, LONG *flavor ) { static const WCHAR classW[] = {'_','_','C','L','A','S','S',0}; static const WCHAR genusW[] = {'_','_','G','E','N','U','S',0}; static const WCHAR pathW[] = {'_','_','P','A','T','H',0}; static const WCHAR namespaceW[] = {'_','_','N','A','M','E','S','P','A','C','E',0}; static const WCHAR propcountW[] = {'_','_','P','R','O','P','E','R','T','Y','_','C','O','U','N','T',0}; static const WCHAR relpathW[] = {'_','_','R','E','L','P','A','T','H',0}; static const WCHAR serverW[] = {'_','_','S','E','R','V','E','R',0}; if (flavor) *flavor = WBEM_FLAVOR_ORIGIN_SYSTEM; if (!strcmpiW( name, classW )) { V_VT( ret ) = VT_BSTR; V_BSTR( ret ) = build_classname( view ); if (type) *type = CIM_STRING; return S_OK; } if (!strcmpiW( name, genusW )) { V_VT( ret ) = VT_I4; V_I4( ret ) = WBEM_GENUS_INSTANCE; /* FIXME */ if (type) *type = CIM_SINT32; return S_OK; } else if (!strcmpiW( name, namespaceW )) { V_VT( ret ) = VT_BSTR; V_BSTR( ret ) = build_namespace( view ); if (type) *type = CIM_STRING; return S_OK; } else if (!strcmpiW( name, pathW )) { V_VT( ret ) = VT_BSTR; V_BSTR( ret ) = build_path( view, index, name ); if (type) *type = CIM_STRING; return S_OK; } if (!strcmpiW( name, propcountW )) { V_VT( ret ) = VT_I4; V_I4( ret ) = count_selected_properties( view ); if (type) *type = CIM_SINT32; return S_OK; } else if (!strcmpiW( name, relpathW )) { V_VT( ret ) = VT_BSTR; V_BSTR( ret ) = build_relpath( view, index, name ); if (type) *type = CIM_STRING; return S_OK; } else if (!strcmpiW( name, serverW )) { V_VT( ret ) = VT_BSTR; V_BSTR( ret ) = build_servername( view ); if (type) *type = CIM_STRING; return S_OK; } FIXME("system property %s not implemented\n", debugstr_w(name)); return WBEM_E_NOT_FOUND; } VARTYPE to_vartype( CIMTYPE type ) { switch (type) { case CIM_BOOLEAN: return VT_BOOL; case CIM_STRING: case CIM_DATETIME: return VT_BSTR; case CIM_SINT16: return VT_I2; case CIM_UINT16: return VT_UI2; case CIM_SINT32: return VT_I4; case CIM_UINT32: return VT_UI4; case CIM_SINT64: return VT_I8; case CIM_UINT64: return VT_UI8; default: ERR("unhandled type %u\n", type); break; } return 0; } SAFEARRAY *to_safearray( const struct array *array, CIMTYPE type ) { SAFEARRAY *ret; UINT size = get_type_size( type ); VARTYPE vartype = to_vartype( type ); LONG i; if (!array || !(ret = SafeArrayCreateVector( vartype, 0, array->count ))) return NULL; for (i = 0; i < array->count; i++) { void *ptr = (char *)array->ptr + i * size; if (vartype == VT_BSTR) { BSTR str = SysAllocString( *(const WCHAR **)ptr ); if (!str || SafeArrayPutElement( ret, &i, str ) != S_OK) { SysFreeString( str ); SafeArrayDestroy( ret ); return NULL; } } else if (SafeArrayPutElement( ret, &i, ptr ) != S_OK) { SafeArrayDestroy( ret ); return NULL; } } return ret; } void set_variant( VARTYPE type, LONGLONG val, void *val_ptr, VARIANT *ret ) { if (type & VT_ARRAY) { V_VT( ret ) = type; V_ARRAY( ret ) = val_ptr; return; } switch (type) { case VT_BOOL: V_BOOL( ret ) = val; break; case VT_BSTR: V_BSTR( ret ) = val_ptr; break; case VT_I2: V_I2( ret ) = val; break; case VT_UI2: V_UI2( ret ) = val; break; case VT_I4: V_I4( ret ) = val; break; case VT_UI4: V_UI4( ret ) = val; break; case VT_NULL: break; default: ERR("unhandled variant type %u\n", type); return; } V_VT( ret ) = type; } HRESULT get_propval( const struct view *view, UINT index, const WCHAR *name, VARIANT *ret, CIMTYPE *type, LONG *flavor ) { HRESULT hr; UINT column, row; VARTYPE vartype; void *val_ptr = NULL; LONGLONG val; if (is_system_prop( name )) return get_system_propval( view, index, name, ret, type, flavor ); if (!view->count || !is_selected_prop( view, name )) return WBEM_E_NOT_FOUND; hr = get_column_index( view->table, name, &column ); if (hr != S_OK || is_method( view->table, column )) return WBEM_E_NOT_FOUND; row = view->result[index]; hr = get_value( view->table, row, column, &val ); if (hr != S_OK) return hr; vartype = view->table->columns[column].vartype; if (view->table->columns[column].type & CIM_FLAG_ARRAY) { CIMTYPE basetype = view->table->columns[column].type & CIM_TYPE_MASK; val_ptr = to_safearray( (const struct array *)(INT_PTR)val, basetype ); if (!vartype) vartype = to_vartype( basetype ) | VT_ARRAY; goto done; } switch (view->table->columns[column].type & COL_TYPE_MASK) { case CIM_BOOLEAN: if (!vartype) vartype = VT_BOOL; break; case CIM_STRING: case CIM_DATETIME: if (val) { vartype = VT_BSTR; val_ptr = SysAllocString( (const WCHAR *)(INT_PTR)val ); } else vartype = VT_NULL; break; case CIM_SINT16: if (!vartype) vartype = VT_I2; break; case CIM_UINT16: if (!vartype) vartype = VT_UI2; break; case CIM_SINT32: if (!vartype) vartype = VT_I4; break; case CIM_UINT32: if (!vartype) vartype = VT_UI4; break; case CIM_SINT64: vartype = VT_BSTR; val_ptr = get_value_bstr( view->table, row, column ); break; case CIM_UINT64: vartype = VT_BSTR; val_ptr = get_value_bstr( view->table, row, column ); break; default: ERR("unhandled column type %u\n", view->table->columns[column].type); return WBEM_E_FAILED; } done: set_variant( vartype, val, val_ptr, ret ); if (type) *type = view->table->columns[column].type & COL_TYPE_MASK; if (flavor) *flavor = 0; return S_OK; } static CIMTYPE to_cimtype( VARTYPE type ) { switch (type) { case VT_BOOL: return CIM_BOOLEAN; case VT_BSTR: return CIM_STRING; case VT_I2: return CIM_SINT16; case VT_UI2: return CIM_UINT16; case VT_I4: return CIM_SINT32; case VT_UI4: return CIM_UINT32; case VT_I8: return CIM_SINT64; case VT_UI8: return CIM_UINT64; default: ERR("unhandled type %u\n", type); break; } return 0; } static struct array *to_array( VARIANT *var, CIMTYPE *type ) { struct array *ret; LONG bound, i; VARTYPE vartype; CIMTYPE basetype; UINT size; if (SafeArrayGetVartype( V_ARRAY( var ), &vartype ) != S_OK) return NULL; if (!(basetype = to_cimtype( vartype ))) return NULL; if (SafeArrayGetUBound( V_ARRAY( var ), 1, &bound ) != S_OK) return NULL; if (!(ret = heap_alloc( sizeof(struct array) ))) return NULL; ret->count = bound + 1; size = get_type_size( basetype ); if (!(ret->ptr = heap_alloc_zero( ret->count * size ))) { heap_free( ret ); return NULL; } for (i = 0; i < ret->count; i++) { void *ptr = (char *)ret->ptr + i * size; if (vartype == VT_BSTR) { BSTR str; if (SafeArrayGetElement( V_ARRAY( var ), &i, &str ) != S_OK) { destroy_array( ret, basetype ); return NULL; } *(WCHAR **)ptr = heap_strdupW( str ); SysFreeString( str ); if (!*(WCHAR **)ptr) { destroy_array( ret, basetype ); return NULL; } } else if (SafeArrayGetElement( V_ARRAY( var ), &i, ptr ) != S_OK) { destroy_array( ret, basetype ); return NULL; } } *type = basetype | CIM_FLAG_ARRAY; return ret; } HRESULT to_longlong( VARIANT *var, LONGLONG *val, CIMTYPE *type ) { if (!var) { *val = 0; return S_OK; } if (V_VT( var ) & VT_ARRAY) { *val = (INT_PTR)to_array( var, type ); if (!*val) return E_OUTOFMEMORY; return S_OK; } switch (V_VT( var )) { case VT_BOOL: *val = V_BOOL( var ); *type = CIM_BOOLEAN; break; case VT_BSTR: *val = (INT_PTR)heap_strdupW( V_BSTR( var ) ); if (!*val) return E_OUTOFMEMORY; *type = CIM_STRING; break; case VT_I2: *val = V_I2( var ); *type = CIM_SINT16; break; case VT_UI2: *val = V_UI2( var ); *type = CIM_UINT16; break; case VT_I4: *val = V_I4( var ); *type = CIM_SINT32; break; case VT_UI4: *val = V_UI4( var ); *type = CIM_UINT32; break; case VT_NULL: *val = 0; break; default: ERR("unhandled type %u\n", V_VT( var )); return WBEM_E_FAILED; } return S_OK; } HRESULT put_propval( const struct view *view, UINT index, const WCHAR *name, VARIANT *var, CIMTYPE type ) { HRESULT hr; UINT column, row = view->result[index]; LONGLONG val; hr = get_column_index( view->table, name, &column ); if (hr != S_OK) { FIXME("no support for creating new properties\n"); return WBEM_E_FAILED; } if (is_method( view->table, column ) || !(view->table->columns[column].type & COL_FLAG_DYNAMIC)) return WBEM_E_FAILED; hr = to_longlong( var, &val, &type ); if (hr != S_OK) return hr; return set_value( view->table, row, column, val, type ); } HRESULT get_properties( const struct view *view, SAFEARRAY **props ) { SAFEARRAY *sa; BSTR str; LONG i; UINT num_props = count_properties( view ); if (!(sa = SafeArrayCreateVector( VT_BSTR, 0, num_props ))) return E_OUTOFMEMORY; for (i = 0; i < view->table->num_cols; i++) { if (is_method( view->table, i )) continue; str = SysAllocString( view->table->columns[i].name ); if (!str || SafeArrayPutElement( sa, &i, str ) != S_OK) { SysFreeString( str ); SafeArrayDestroy( sa ); return E_OUTOFMEMORY; } } *props = sa; return S_OK; }